# Altair -- Fork Logic ## Table of contents - [Introduction](#introduction) - [Configuration](#configuration) - [Fork to Altair](#fork-to-altair) - [Fork trigger](#fork-trigger) - [Upgrading the state](#upgrading-the-state) ## Introduction This document describes the process of the first upgrade of the beacon chain: the Altair hard fork, introducing light client support and other improvements. ## Configuration Warning: this configuration is not definitive. | Name | Value | | - | - | | `ALTAIR_FORK_VERSION` | `Version('0x01000000')` | | `ALTAIR_FORK_EPOCH` | `Epoch(74240)` (Oct 27, 2021, 10:56:23am UTC) | ## Fork to Altair ### Fork trigger The fork is triggered at epoch `ALTAIR_FORK_EPOCH`. Note that for the pure Altair networks, we don't apply `upgrade_to_altair` since it starts with Altair version logic. ### Upgrading the state If `state.slot % SLOTS_PER_EPOCH == 0` and `compute_epoch_at_slot(state.slot) == ALTAIR_FORK_EPOCH`, an irregular state change is made to upgrade to Altair. The upgrade occurs after the completion of the inner loop of `process_slots` that sets `state.slot` equal to `ALTAIR_FORK_EPOCH * SLOTS_PER_EPOCH`. Care must be taken when transitioning through the fork boundary as implementations will need a modified [state transition function](../phase0/beacon-chain.md#beacon-chain-state-transition-function) that deviates from the Phase 0 document. In particular, the outer `state_transition` function defined in the Phase 0 document will not expose the precise fork slot to execute the upgrade in the presence of skipped slots at the fork boundary. Instead the logic must be within `process_slots`. ```python def translate_participation(state: BeaconState, pending_attestations: Sequence[phase0.PendingAttestation]) -> None: for attestation in pending_attestations: data = attestation.data inclusion_delay = attestation.inclusion_delay # Translate attestation inclusion info to flag indices participation_flag_indices = get_attestation_participation_flag_indices(state, data, inclusion_delay) # Apply flags to all attesting validators epoch_participation = state.previous_epoch_participation for index in get_attesting_indices(state, data, attestation.aggregation_bits): for flag_index in participation_flag_indices: epoch_participation[index] = add_flag(epoch_participation[index], flag_index) def upgrade_to_altair(pre: phase0.BeaconState) -> BeaconState: epoch = phase0.get_current_epoch(pre) post = BeaconState( # Versioning genesis_time=pre.genesis_time, genesis_validators_root=pre.genesis_validators_root, slot=pre.slot, fork=Fork( previous_version=pre.fork.current_version, current_version=ALTAIR_FORK_VERSION, epoch=epoch, ), # History latest_block_header=pre.latest_block_header, block_roots=pre.block_roots, state_roots=pre.state_roots, historical_roots=pre.historical_roots, # Eth1 eth1_data=pre.eth1_data, eth1_data_votes=pre.eth1_data_votes, eth1_deposit_index=pre.eth1_deposit_index, # Registry validators=pre.validators, balances=pre.balances, # Randomness randao_mixes=pre.randao_mixes, # Slashings slashings=pre.slashings, # Participation previous_epoch_participation=[ParticipationFlags(0b0000_0000) for _ in range(len(pre.validators))], current_epoch_participation=[ParticipationFlags(0b0000_0000) for _ in range(len(pre.validators))], # Finality justification_bits=pre.justification_bits, previous_justified_checkpoint=pre.previous_justified_checkpoint, current_justified_checkpoint=pre.current_justified_checkpoint, finalized_checkpoint=pre.finalized_checkpoint, # Inactivity inactivity_scores=[uint64(0) for _ in range(len(pre.validators))], ) # Fill in previous epoch participation from the pre state's pending attestations translate_participation(post, pre.previous_epoch_attestations) # Fill in sync committees # Note: A duplicate committee is assigned for the current and next committee at the fork boundary post.current_sync_committee = get_next_sync_committee(post) post.next_sync_committee = get_next_sync_committee(post) return post ```